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Query: UMLS:C0085584 (encephalopathy)
 18,178 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The pathogenesis of perinatal hypoxic-ischemic encephalopathy is poorly understood. Most insults are thought to occur before or during birth. We have investigated the evolution of parasagittal EEG activity and distribution of neuronal damage after cerebral ischemia in chronically instrumented fetal sheep (119-126 d gestation). The vertebral-carotid anastomoses were ligated and cerebral ischemia was induced by inflating occluder cuffs around the carotid arteries for 30 min. Parietal cortical EEG activity was analyzed with real-time spectral analysis with reference to control fetuses. After ischemia, EEG activity was suppressed, then rapidly increased in intensity at 8 +/- 1 h to a peak at 9 +/- 1 h postischemia. There was increased intensity of the lower frequencies (1-7 Hz) apparent as epileptiform activity with convulsions. This low-frequency hyperactivity gradually resolved by 28 +/- 7 h postinsult. After 72 h, the loss of intensity at all frequencies and laminar necrosis of the underlying parasagittal cortex indicated irreversible brain injury. Ranking the structures in order of decreasing amounts of damage: parasagittal cortex greater than hippocampal CA1, 2, and 3 regions greater than lateral cortex, hippocampal CA4 region and striatum greater than amygdala, dentate gyrus, thalamus, and cerebellum. The evolution of EEG activity and the distribution of damage after cerebral ischemia closely resembles the time course and pathology of hypoxic-ischemic encephalopathy seen in some severely asphyxiated term neonates. The consistent electrophysiologic and histologic outcome should allow this experimental approach to be valuable in testing a number of current hypotheses relating to perinatal asphyxial encephalopathy.
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PMID:Delayed seizures occurring with hypoxic-ischemic encephalopathy in the fetal sheep. 235 99

Intracellular recordings in 'in vitro' hippocampal slices, prepared from intracisternally AlCl3-intoxicated rabbits, were obtained from 43 CA1 pyramidal neurons. The experiments were performed 12-20 days after aluminum administration. The electrotonic length was significantly shorter than that of 33 control neurons, in agreement with morphological evidence of an Al-induced dendritic impairment. Both postsynaptic and Ca2(+)-dependent K+ hyperpolarizing potentials were also found to be significantly decreased, with reciprocal enhancement of excitatory postsynaptic potentials and depolarizing after-potentials. The former finding is ascribed to a selective neurotoxic effect of aluminum on GABAergic interneurons; the latter can be accounted for by an Al-induced increase in cyclic AMP, which is known to block the Ca2(+)-activated K+ conductance responsible for after-hyperpolarizing potentials. It is concluded that aluminum can exert its epileptogenic effect through multiple neurotoxic mechanisms involving membrane electrotonic properties, K+ conductances, and synaptic influences, thus resulting in a neuronal hyperexcitable state. Such changes are detectable in the early stages of the Al-induced encephalopathy, when there is only slight evidence of cytoskeleton alterations (i.e., neurofibrillary degeneration).
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PMID:Changes in excitability of CA1 pyramidal neurons in slices prepared from AlCl3-treated rabbits. 235 54

Two distinct categories of facts are deduced from a neuropathological study of the Ammon's horn, in particular the Sommer Sector, afflicted with alcoholic cirrhotic encephalopathy. In the pyramidal neurons of the CA1 layer, there are unquestionably paired filaments in a helical form, which correspond to the now classic "paired helical filaments". On the other hand, whereas the astrocyte population on the whole displays the characteristics of what can be called Alzheimer type II cells, a certain number of highly reactive areas persist, which can be detected by a GFAP-specific immunohistochemical method.
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PMID:The cornu ammonis and alcoholic cirrhotic encephalopathy. A neuropathological and immunohistological study. 651 10

The hamster neurotropic (HNT) strain of measles virus causes non-inflammatory encephalopathy in Balb/c mice, associated with neurodegeneration in hippocampal CA1 and CA3 regions. This loss of pyramidal cells can be prevented by twice daily systemic treatment with 1 mg/kg dizocilpine (5-methyl-10,11-dihydro-5H-dibenzo(a,d)cyclo-hepten-5,10-imine maleate; MK-801) for 7 days. By varying the MK-801 treatment protocol, we now found that drug administration during the last 4 days prior to sacrifice (i.e. days 4-7 post inoculation, p.i.) is essential for neuroprotection. In contrast, MK-801 treatment during the first days (days 0-4 p.i.) did not prevent the neuronal necrosis. These data suggest that the concentration of an excitotoxic factor in the mouse brain increases after virus inoculation, reaching toxic levels by days 4-5 p.i. This novel 'subacute' mouse model of neurodegeneration therefore constitutes an attractive tool for mechanistic and interventional studies in excitotoxicity research.
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PMID:Measles virus-induced hippocampal neurodegeneration in the mouse: a novel, subacute model for testing neuroprotective agents. 836 21

Guanidinosuccinic acid (GSA) is a guanidino compound found in mammalian central nervous system and physiological fluids. Its level has been found to be greatly increased in serum and cerebrospinal fluid of patients with renal failure, and the compound is suggested to play a role in uremic encephalopathy. In this report we examined the behavioral, electrographic and morphological effects of intrahippocampal GSA injection in unanesthetized rats. Intrahippocampal administration of 2 microliters GSA solution (3.5 nM) was followed by behavior observation, and electrohippocampographic and electrocorticographic recording. GSA-injected animals showed partial clonic seizures leading to generalized clonic seizures, and eventually status epilepticus. These were accompanied by epileptiform electrographic discharges. During generalized clonic seizures, the electrohippocampogram showed arythmic bursting spikes. Epileptiform electric activity persisted even after the generalized clonic convulsions had stopped, and lasted until the animals were killed, 5 days following injection. Microscopic examination of brain slices of these rats revealed severe neural damage in CA1 area of hippocampus. Treatment of rats with the non-competitive NMDA receptor antagonist ketamine prevented both partial and generalized clonic seizures, epileptiform electrographic discharges, and GSA-induced hippocampal damage.
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PMID:Epileptiform activity and hippocampal damage produced by intrahippocampal injection of guanidinosuccinic acid in rat. 876 97

The effect of sepsis on cellular calcium homeostasis in the central nervous system (CNS) was investigated using hippocampal slices of rats in which sepsis was induced by cecal ligation and puncture (CLP). Hippocampal slices were prepared from septic or sham-operated rats at 24 h after abdominal surgery. The basal intracellular calcium ([Ca2+]i) and its response to oxygen-glucose deprivation in hippocampal slices were measured for assessing cellular calcium homeostasis using fura-2 fluorescent imaging technique. The levels of [Ca2+]i were estimated by the fluorescence ratio (R340/380). Twenty-four hours after CLP, spontaneous movement was reduced and plasma lactate was increased in the septic rats in comparison with the sham-operated rats in which laparotomy was performed without CLP. Basal level of R340/380 in the CA4 ara (.72 +/- .07) was significantly higher (p < .001) in the septic group than that in the sham-operated group (.55 +/- (.06). The fluorescence ratio of septic vs. sham-operated in other hippocampal regions were .55 +/- .09 vs. .48 +/- .06 in CA1 (not significant) and .65 +/- .10 vs. .59 +/- .08 (not significant) in CA3, respectively. Increase in [Ca2+]i due to oxygen-glucose deprivation was significant in CA1 and CA3 of the septic group and in all hippocampal regions of sham-operated group. However, it was not significantly increased in CA4 of the septic group. These results suggest that regional deregulation of cellular calcium occurs in the CNS following CLP. Cellular calcium deregulation may be one of the pathogeneses occurred in clinically observed septic encephalopathy.
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PMID:Regionally different elevation of intracellular free calcium in hippocampus of septic rat brain. 890 48

Cerebral hypoxia-ischemia causes encephalopathy and neurologic disabilities in newborns by unclear mechanisms. We tested the hypothesis that hypoxia-ischemia causes brain damage in newborns that is system-preferential and related to regional oxidative metabolism. One-week-old piglets were subjected to 30 minutes of hypoxia and then seven minutes of airway occlusion, producing asphyxic cardiac arrest, followed by cardiopulmonary resuscitation and four-day recovery. Brain injury in hypoxic-ischemia piglets (n = 6) compared to controls (n = 5) was analyzed by hematoxylin-eosin, Nissl, and silver staining, relationships between regional vulnerability and oxidative metabolism were evaluated by cytochrome oxidase histochemistry. Profile counting-based estimates showed that 13% and 27% of neurons in layers II/III and layers of somatosensory cortex had ischemic cytopathology, respectively; CA1 neuronal perikarya appeared undamaged, and < 10% of CA3 and CA4 neurons were injured; and neuronal damage was 79% in putamen, 17% in caudate, but nucleus accumbens was undamaged. Injury was found preferentially in primary sensory neocortices (particularly somatosensory cortex), basal ganglia (predominantly putamen, subthalamic nucleus, and substantia nigra reticulata), ventral thalamus, geniculate nuclei, and tectal nuclei. In sham piglets, vulnerable region generally had higher cytochrome oxidase levels than less vulnerable areas. Postischemic alterations in cytochrome oxidase were regional and laminar, with reductions (31-66%) occurring in vulnerable regions and increases (20%) in less vulnerable areas. We conclude that neonatal hypoxia-ischemia causes highly organized, system-preferential and topographic encephalopathy, targeting regions that function in sensorimotor integration and movement control. This distribution of neonatal encephalopathy is dictated possibly by regional function, mitochondrial activity, and connectivity.
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PMID:Primary sensory and forebrain motor systems in the newborn brain are preferentially damaged by hypoxia-ischemia. 898 85

Neuropathological study on the limbic lesion of 33 autopsy cases with senile dementia of Alzheimer type (SDAT) showed as follows. 1) The entorhinal cortex was more atrophied than the hippocampus. 2) Neuronal loss was found in the 2nd and 3rd layers of the entorhinal cortex, irrespective of the different numbers of senile plaques and neurofibrillary tangles (NFTs). 3) Fibrillary gliosis occurred in the stratum lacunosum of the hippocampus, irrespective of the different degrees of neuronal loss in the stratum pyramidale of the hippocampus. 4) The prosubiculum showed gliosis disproportional to neuronal loss. 5) The degree of fibrillary gliosis in the stratum lacunosum of the hippocampus and in the prosubiculum was proportional to that of the entorhinal cortical degeneration. 6) The shape of the hippocampus of the cases with SDAT was different from that in the cases with anoxic encephalopathy in which neuronal loss in the CA1 occurred primarily: 7) Distribution pattern of the lesion in the hippocampus of SDAT cases was almost the same as that found in the cases with infarct in the collateral sulcus involving the entorhinal cortex. It is assumed that the hippocampal atrophy is a primary degeneration attributable to appearance of senile plaques and NFTs. However, our present observations and previous report (Neurosci Lett 184: 141-144 1995) suggest that degeneration of the entorhinal cortex and its efferent fibres (perforant pathway) plays a considerable part of role in development of the hippocampal atrophy. The present study could contribute to understanding of progression of the limbic lesion in SDAT.
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PMID:[Neuropathological study on progression of the limbic degeneration in senile dementia of Alzheimer type]. 902 2

Selective amygdalo-subicular degeneration was observed in a 25-year-old woman with encephalopathy of unknown etiology. Following flu-like symptoms, the patient presented with confusion and generalized seizures. Subsequently, she developed persistent stupor with absence of the brainstem reflexes, refractory status epilepticus accompanied by hyperthermia, and exhibited choreoathetoid movements. Despite therapies her condition showed no improvement, and she died four months after the onset of disease. Postmortem examinations revealed no evidence suggestive of viral encephalitis, and instead distinctive bilateral lesions were seen in the subiculum (the subiculum proper and the prosubiculum) and the basolateral nuclear group of the amygdala. The hippocampus proper from CA1 to dentate fascia was unremarkable. The selective amygdalo-subicular degeneration, for which pathogenesis remained unknown, was inconsistent with her serious clinical condition. To our knowledge, similar pathology has not been described so far.
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PMID:Amygdalo-subicular degeneration in a young adult with status epilepticus and choreoathetoid movements of acute onset. 998 39

We have previously observed that prolonged O(2) deprivation alters membrane protein expression and membrane properties in the central nervous system. In this work, we studied the effect of prolonged O(2) deprivation on the electrical activity of rat cortical and hippocampal neurons during postnatal development and its relationship to Na(+) channels. Rats were raised in low O(2) environment (inspired O(2) concentration = 9.5+/-0.5%) for 3-4 weeks, starting at an early age (2-3 days old). Using electrophysiologic recordings in brain slices, RNA analysis (northern and slot blots) and saxitoxin (a specific ligand for Na(+) channels) binding autoradiography, we addressed two questions: (1) does long-term O(2) deprivation alter neuronal excitability in the neocortical and hippocampal neurons during postnatal development? and (2) if so, what are the main mechanisms responsible for the change in excitability in the exposed brain? Our results show that (i) baseline membrane properties of cortical and hippocampal CA1 neurons from rats chronically exposed to hypoxia were not substantially different from those of naive neurons; (ii) acute stress (e.g., hypoxia) elicited a markedly exaggerated response in the exposed neurons as compared to naive ones; (iii) chronic hypoxia tended to increase Na(+) channel mRNA and saxitoxin binding density in the cortex and hippocampus as compared to control ones; and (iv) the enhanced neuronal response to acute hypoxia in the exposed cortical and CA1 neurons was considerably attenuated by applying tetrodotoxin, a voltage-sensitive Na(+) channel blocker, in a dose-dependent manner. We conclude that prolonged O(2) deprivation can lead to major electrophysiological disturbances, especially when exposed neurons are stressed acutely, which renders the chronically exposed neurons more vulnerable to subsequent micro-environmental stress. We suggest that this Na(+) channel-related over-excitability is likely to constitute a molecular mechanism for some neurological sequelae, such as epilepsy, resulting from perinatal hypoxic encephalopathy.
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PMID:Increased neuronal excitability after long-term O(2) deprivation is mediated mainly by sodium channels. 1076 96


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